use lsp_types as types;

use super::PositionEncoding;
// use ruff_notebook::NotebookIndex;
use crate::baml_source_file::OneIndexed;
use crate::{
    baml_source_file::{LineIndex, SourceLocation},
    baml_text_size::{TextRange, TextSize},
};

// pub(crate) struct NotebookRange {
//     pub(crate) cell: notebook::CellId,
//     pub(crate) range: types::Range,
// }

pub(crate) trait RangeExt {
    fn to_text_range(&self, text: &str, index: &LineIndex, encoding: PositionEncoding)
        -> TextRange;
}

pub(crate) trait ToRangeExt {
    fn to_range(&self, text: &str, index: &LineIndex, encoding: PositionEncoding) -> types::Range;
    // fn to_notebook_range(
    //     &self,
    //     text: &str,
    //     source_index: &LineIndex,
    //     notebook_index: &NotebookIndex,
    //     encoding: PositionEncoding,
    // ) -> NotebookRange;
}

fn u32_index_to_usize(index: u32) -> usize {
    usize::try_from(index).expect("u32 fits in usize")
}

impl RangeExt for lsp_types::Range {
    fn to_text_range(
        &self,
        text: &str,
        index: &LineIndex,
        encoding: PositionEncoding,
    ) -> TextRange {
        let start_line = index.line_range(
            OneIndexed::from_zero_indexed(u32_index_to_usize(self.start.line)),
            text,
        );
        let end_line = index.line_range(
            OneIndexed::from_zero_indexed(u32_index_to_usize(self.end.line)),
            text,
        );

        let (start_column_offset, end_column_offset) = match encoding {
            PositionEncoding::UTF8 => (
                TextSize::new(self.start.character),
                TextSize::new(self.end.character),
            ),

            PositionEncoding::UTF16 => {
                // Fast path for ASCII only documents
                if index.is_ascii() {
                    (
                        TextSize::new(self.start.character),
                        TextSize::new(self.end.character),
                    )
                } else {
                    // UTF16 encodes characters either as one or two 16 bit words.
                    // The position in `range` is the 16-bit word offset from the start of the line (and not the character offset)
                    // UTF-16 with a text that may use variable-length characters.
                    (
                        utf8_column_offset(self.start.character, &text[start_line]),
                        utf8_column_offset(self.end.character, &text[end_line]),
                    )
                }
            }
            PositionEncoding::UTF32 => {
                // UTF-32 uses 4 bytes for each character. Meaning, the position in range is a character offset.
                return TextRange::new(
                    index.offset(
                        OneIndexed::from_zero_indexed(u32_index_to_usize(self.start.line)),
                        OneIndexed::from_zero_indexed(u32_index_to_usize(self.start.character)),
                        text,
                    ),
                    index.offset(
                        OneIndexed::from_zero_indexed(u32_index_to_usize(self.end.line)),
                        OneIndexed::from_zero_indexed(u32_index_to_usize(self.end.character)),
                        text,
                    ),
                );
            }
        };

        TextRange::new(
            start_line.start() + start_column_offset.clamp(TextSize::new(0), start_line.end()),
            end_line.start() + end_column_offset.clamp(TextSize::new(0), end_line.end()),
        )
    }
}

impl ToRangeExt for TextRange {
    fn to_range(&self, text: &str, index: &LineIndex, encoding: PositionEncoding) -> types::Range {
        types::Range {
            start: source_location_to_position(&offset_to_source_location(
                self.start(),
                text,
                index,
                encoding,
            )),
            end: source_location_to_position(&offset_to_source_location(
                self.end(),
                text,
                index,
                encoding,
            )),
        }
    }

    // fn to_notebook_range(
    //     &self,
    //     text: &str,
    //     source_index: &LineIndex,
    //     notebook_index: &NotebookIndex,
    //     encoding: PositionEncoding,
    // ) -> NotebookRange {
    //     let start = offset_to_source_location(self.start(), text, source_index, encoding);
    //     let mut end = offset_to_source_location(self.end(), text, source_index, encoding);
    //     let starting_cell = notebook_index.cell(start.row);

    //     // weird edge case here - if the end of the range is where the newline after the cell got added (making it 'out of bounds')
    //     // we need to move it one character back (which should place it at the end of the last line).
    //     // we test this by checking if the ending offset is in a different (or nonexistent) cell compared to the cell of the starting offset.
    //     if notebook_index.cell(end.row) != starting_cell {
    //         end.row = end.row.saturating_sub(1);
    //         end.column = offset_to_source_location(
    //             self.end().checked_sub(1.into()).unwrap_or_default(),
    //             text,
    //             source_index,
    //             encoding,
    //         )
    //         .column;
    //     }

    //     let start = source_location_to_position(&notebook_index.translate_location(&start));
    //     let end = source_location_to_position(&notebook_index.translate_location(&end));

    //     NotebookRange {
    //         cell: starting_cell
    //             .map(OneIndexed::to_zero_indexed)
    //             .unwrap_or_default(),
    //         range: types::Range { start, end },
    //     }
    // }
}

/// Converts a UTF-16 code unit offset for a given line into a UTF-8 column number.
fn utf8_column_offset(utf16_code_unit_offset: u32, line: &str) -> TextSize {
    let mut utf8_code_unit_offset = TextSize::new(0);

    let mut i = 0u32;

    for c in line.chars() {
        if i >= utf16_code_unit_offset {
            break;
        }

        // Count characters encoded as two 16 bit words as 2 characters.
        {
            utf8_code_unit_offset +=
                TextSize::new(u32::try_from(c.len_utf8()).expect("utf8 len always <=4"));
            i += u32::try_from(c.len_utf16()).expect("utf16 len always <=2");
        }
    }

    utf8_code_unit_offset
}

fn offset_to_source_location(
    offset: TextSize,
    text: &str,
    index: &LineIndex,
    encoding: PositionEncoding,
) -> SourceLocation {
    match encoding {
        PositionEncoding::UTF8 => {
            let row = index.line_index(offset);
            let column = offset - index.line_start(row, text);

            SourceLocation {
                column: OneIndexed::from_zero_indexed(column.to_usize()),
                row,
            }
        }
        PositionEncoding::UTF16 => {
            let row = index.line_index(offset);

            let column = if index.is_ascii() {
                (offset - index.line_start(row, text)).to_usize()
            } else {
                let up_to_line = &text[TextRange::new(index.line_start(row, text), offset)];
                up_to_line.encode_utf16().count()
            };

            SourceLocation {
                column: OneIndexed::from_zero_indexed(column),
                row,
            }
        }
        PositionEncoding::UTF32 => index.source_location(offset, text),
    }
}

fn source_location_to_position(location: &SourceLocation) -> types::Position {
    types::Position {
        line: u32::try_from(location.row.to_zero_indexed()).expect("row usize fits in u32"),
        character: u32::try_from(location.column.to_zero_indexed())
            .expect("character usize fits in u32"),
    }
}
